Syllabus for Undergraduate Program

1

Chapter 3

Syllabus for Undergraduate Program

Semester Credit Distribution

S.N. Year/

Semester

Theory Sessional Total

Credits No of Course Credits No of Course Credits

1 1st/Odd 5 15 4 4.50 19.50

2 1st/Even 5 15 4 4.50 19.50

3 2nd/Odd 5 15 4 5.25 20.25

4 2nd /Even 5 15 4 5.25 20.25

5 3rd/Odd 5 15 4 4.50 19.50

6 3rd/Even 5 15 5 6.00 21.00

7 4th/Odd 5 14 6 5.50 19.50

8 4th/Even 5 15 4 5.50 20.50

Total 40 119 33 41.00 160.00

Summary of Undergraduate Course Plan

S.N. Course Type Credit %

1 Departmental Courses

Core Courses Theory 69

Lab 32.75

Elective Courses Theory 15

Lab 2.25

Sub-Total 119.0 74.38

2 Related Courses

Humanities Theory 11

Lab 0.75

Sub-Total 11.75 7.34

Basic Sciences Theory 18

Lab 1.5

Sub-Total 19.50 12.19

Related Engg. Theory 6

Lab 3.75

Sub-Total 9.75 6.09

Total 160 100.00

2

List of Undergraduate Courses

Core Courses (EEE)

S.N. Course

Number

Course Title Contact

Hrs/week

Credit

1 EEE 1101 Electrical Circuits 3 3.0

2 EEE 1102 Electrical Circuits Sessional 3 1.5

3 EEE 1201 Electrical Circuits 3 3.0

4 EEE 1202 Electrical Circuits Sessional 3/2 0.75

5 EEE 1203 Electronics 3 3.0

6 EEE 1204 Electronics Sessional 3 1.5

7 EEE 2100 Electrical Shop Practice 3 1.5

8 EEE 2103 Electronics 3 3.0

9 EEE 2104 Electronics Sessional 3 1.5

10 EEE 2203 Electronics I 3 3.0

11 EEE 2204 Electronics I Sessional 3 1.5

12 EEE 2105 Electrical Machine 3 3.0

13 EEE 2106 Electrical Machine Sessional 3 1.5

14 EEE 2205 Electrical Machine 3 3.0

15 EEE 2206 Electrical Machine Sessional 3 1.5

16 EEE 2211 Measurement and Instrumentation 3 3.0

17 EEE 2212 Measurement and Instrumentation

Sessional

3 1.5

18 EEE 2213 Digital Electronics I 3 3.0

19 EEE 2214 Digital Electronics I Sessional 3/2 0.75

20 EEE 3100 Electronic Shop Practice 3 1.5

21 EEE 3101 Signals and Linear Systems 3 3.0

22 EEE 3105 Control Systems 3 3.0

23 EEE 3106 Control Systems Sessional 3/2 0.75

24 EEE 3107 Electromagnetic Fields & Waves 3 3.0

25 EEE 3109 Computational Methods in

Electrical Engineering

3 3.0


Electrical Engineering Sessional

3 1.5

27 EEE 3117 Communication Engineering I 3 3.0

28 EEE 3118 Communication Engineering I

Sessional

3/2 0.75

29 EEE 3200 Electrical and Electronic Circuit

Simulation Sessional

3 1.5

30 EEE 3203 Power Electronics 3 3.0

31 EEE 3204 Power Electronics Sessional 3/2 0.75

32 EEE 3205

Power Plant Engineering and

Economy

3 3.0

33 EEE 3209 Microprocessor, Interfacing and

System Design

3 3.0

34 EEE 3210 Microprocessor, Interfacing and

System Design Sessional

3 1.5

35 EEE 3211 Power System 3 3.0

36 EEE 3212 Power System Sessional 3 1.5

37 EEE 3217 Communication Engineering II 3 3.0

38 EEE 3218 Communication Engineering II

Sessional

3/2 0.75

3

S.N. Course

Number


Hrs/week

Credit

39 EEE 4000 Project and Thesis 3 4.5

40 EEE 4100 Industrial Training 3 1.0

41 EEE 4107 Digital Signal Processing 3 3.0

42 EEE 4108 Digital Signal Processing Sessional 3/2 0.75

43 EEE 4117 Radio and TV Engineering 3 3.0

44 EEE 4118 Radio and TV Engineering

Sessional

3/2 0.75

45 EEE 4200 Seminar 3 1.0

46 EEE 4209 Embedded System Design 3 3.0

47 EEE 4210 Embedded System Design Sessional 3/2 0.75

48 EEE 4217 Mobile Cellular Communication 3 3.0

Total 101.75

Core Courses (Humanities) S.N. Course

Number


Hrs/week Credits

1 Hum 1111 Technical English 3 3.0

2 Hum 1112 Technical English Sessional 3/2 0.75

3 Hum 1211 Financial Account and Economic

Analysis

3 3.0

Total 7.5 6.75

Core Courses (Mathematics) S.N. Course

Number


Hrs/week Credits

1 Math 1101 Engg. Mathematics 3 3.0



4 Math 2201 Engg. Mathematics V 3 3.0

Total 12 12.0

Core Courses (Physics) S.N. Course

Number


Hrs/week Credits

1 Phy 1111 Physics 3 3.0

2 Phy 1112 Physics Sessional 3/2 0.75

Total 4.5 3.75

Core Courses (Chemistry) S.N. Course

Number


Hrs/week Credits

1 Chem 1211 Chemistry 3 3.0

2 Chem 1212 Chemistry Sessional 3/2 0.75

Total 4.5 3.75

Core Courses (ME) S.N. Course

Number


Hrs/week Credits

1 ME 1200 Engineering Drawing 3 1.50

2 ME 2101 Basic Mechanical Engineering 3 3.0

3 ME 2102 Basic Mechanical Engineering

Sessional

3/2 0.75

4

Total 7.5 5.25

Core Courses (CSE) S.N. Course

Number


Hrs/week Credits

1 CSE 1111 Computer Programming 3 3.0

2 CSE 1112 Computer Programming Sessional 3 1.5

Total 6 4.5

Core Courses (IPE) S.N. Course

Number


Hrs/week Credits

1 IPE 2111

Legal Issues and Management for

Engineers

3 3.0

2 IPE 4111

Project and Operations

Management

2 2.0

Total 5 5.0

Elective Courses

From 4th year Odd semester, the department starts offering elective courses

under three (3) major tracks viz. Power-, Electronics-, and Communication-

Engineering.

Track selection:

1. Students will be divided into the three major tracks on the basis of

options given by the students and their CGPA at the end of 3rd year

odd semester. For regular students, this will be done in 3rd year even

semester.

2. Maximum number of students in any major group will be N/3, where N

is the total number of students in a class.

3. A student will have to take five (5) elective courses along with the

corresponding sessional courses from the respective track.

4. Students will be assigned their projects/ theses in 4th year odd

semester. The theme of project/thesis shall reflect the respective track.

5. Maximum class size of an elective course for regular students will be

N/3. However, a student who has previously failed in an elective course

will be allowed to re-register the course regardless of the class size.

6. In case of any unforeseen situation or ambiguity, the UGAC will take

an appropriate decision.

5

Power Group

Sl.

No.

Course

Number


Hrs/week Credits

1 EEE 4141 Power System II 3 3.0

2 EEE 4142 Power System II Sessional 3/2 0.75

3 EEE 4143 High Voltage Engineering 3 3.0

4 EEE 4144 High Voltage Engineering Sessional 3/2 0.75

5 EEE 4241 Power System Protection 3 3.0

6 EEE 4242 Power System Protection Sessional 3/2 0.75

7 EEE 4243 Power System Operation and Control 3 3.0

8 EEE 4245 Electrical Machine III 3 3.0

9 EEE 4247 Renewable Energy 3 3.0

Electronics Group

Sl.

No.

Course

Number


Hrs/week Credits

1 EEE 4161 Digital Electronics II 3 3.0

2 EEE 4162 Digital Electronics II Sessional 3/2 0.75

3 EEE 4163 VLSI 3 3.0

4 EEE 4164 VLSI Sessional. 3/2 0.75

5 EEE 4261 Biomedical Engineering 3 3.0

6 EEE 4262 Biomedical Engineering Sessional 3/2 0.75

7 EEE 4263 Optoelectronics 3 3.0

8 EEE 4265 Processing & Fabrication Technology 3 3.0

9 EEE 4267 Transducers and Instrumentation 3 3.0

10 EEE 4268 Transducers and Instrumentation Sessional

3/2 0.75

Communication Group

Sl.

No.

Course

Number


Hrs/week Credits

1 EEE 4181 Microwave Engineering 3 3.0

2 EEE 4182 Microwave Engineering Sessional 3/2 0.75

3 EEE 4183 Digital Communication 3 3.0

4 EEE 4184 Digital Communication Sessional 3/2 0.75

5 EEE 4281 Antennas and Propagation 3 3.0

6 EEE 4282 Antennas and Propagation Sessional 3/2 0.75

7 EEE 4283 Radar and Satellite Communication 3 3.0

8 EEE 4285 Optical Fiber Communication 3 3.0

6

4. Prerequisite Courses

S. N. Course Prerequisite Course

1 EEE 1201 EEE 1101

2 EEE 1203 EEE 1101

3 EEE 2103 EEE 1203

4 EEE 2105 EEE 1101

5 EEE 2203 EEE 2103

6 EEE 2205 EEE 2105

7 EEE 2213 EEE 1203

8 EEE 3105 EEE 1201

9 EEE 3107 Math 2101

10 EEE 3109 CSE 1112

11 EEE 3203 EEE 2213

12 EEE 3209 EEE 2213

13 EEE 4209 EEE 3209

Semester Course Plan Department will offer the courses to its students, in general, as per the

following arrangement.

1st Year Odd semester

Sl.

No Course No. Course Title


Credits Contact

Hrs/week Credits

Contact

Hrs/week Credits

1 EEE 1101 Electrical Circuit I 3 3 3.00

2 EEE 1102 Electrical Circuit I Sessional 3 1.5 1.50

3 CSE 1111 Computer Programming 3 3 3.00

4 CSE 1112 Computer Programming

Sessional 3 1.5 1.50

5 Math 1101 Engg. Mathematics I 3 3 3.00

6 Phy 1111 Physics 3 3 3.00

7 Phy 1112 Physics Sessional 3/2 0.75 0.75

8 Hum 1111 Technical English 3 3

3.00

9 Hum 1112 Technical English Sessional

3/2 0.75 0.75

Total 15 15 9 4.5 19.50

7

1st Year Even semester

Sl.



Credits Contact

Hrs/week Credits

Contact

Hrs/week Credits

1 EEE 1201 Electrical Circuit II 3 3 3.00

2 EEE 1202 Electrical Circuit II Sessional 3/2 0.75 0.75

3 EEE 1203 Electronics 3 3 3.00

4 EEE 1204 Electronics Sessional 3 1.5 1.50

5 Chem 1111 Chemistry 3 3 3.00

6 Chem 1112 Chemistry Sessional 3/2 0.75 0.75

7 Hum 1211 Financial Account &

Economic Analysis 3 3 3.00

8 Math 1201 Engg. Mathematics II 3 3 3.00

9 ME 1200 Engineering Drawing 3 1.5 1.50

Total 15 15 9 4.5 19.50

2nd Year Odd semester

Sl.



Credits Contact

Hrs/week Credits

Contact

Hrs/week Credits

1 EEE 2100 Electrical Shop Practice 3 1.5 1.50

2 EEE 2103 Electronics II 3 3 3.00

3 EEE 2104 Electronics II Sessional 3 1.5 1.50

4 EEE 2105 Electrical Machine I 3 3 3.00

5 EEE 2106 Electrical Machine I


6 Math 2101 Engg. Mathematics III 3 3 3.00

7 ME 2101 Basic Mechanical

Engineering 3 3 3.00

8 ME 2102 Basic Mechanical

Engineering Sessional 3/2 0.75 0.75

9 IPE 2111 Legal Issues and

Management for Engineers 3 3 3.00

Total 15 15 10.5 5.25 20.50

2nd Year Even semester

Sl.



Credits Contact

Hrs/week Credits

Contact

Hrs/week Credits

1 Math 2201 Engg. Mathematics IV 3 3 3.00

2 EEE2203 Electronics III 3 3 3.00

3 EEE2204 Electronics III Sessional 3 1.5 1.50

4 EEE2205 Electrical Machine II 3 3 3.00

5 EEE2206 Electrical Machine II


6 EEE2211 Measurement &

Instrumentation 3 3 3.00

7 EEE2212 Measurement &

Instrumentation Sessional 3 1.5 1.50

8 EEE2213 Digital Electronics I 3 3 3.00

9 EEE 2214 Digital Electronics I Sessional 3/2 0.75 0.75

Total 15 15 10.5 5.25 20.25

8

3rd Year odd semester

Sl.



Credits Contact

Hrs/week Credits

Contact

Hrs/week Credits

1 EEE 3100 Electronic Shop Practice 3 1.5 1.50

2 EEE 3101 Signals and Linear Systems 3 3 3.00

3 EEE 3105 Control Systems 3 3 3.00

4 EEE 3106 Control Systems Sessional 3/2 0.75 0.75

5 EEE 3107 Electromagnetic Fields &

Waves 3 3 3.00


Electrical Engineering 3 3 3.00

7 EEE 3110

Computational Methods in

Electrical Engineering

Sessional

3 1.5 1.50

8 EEE 3117 Communication Engineering I 3 3 3.00

9 EEE 3118 Communication Engineering I

Sessional 3/2 0.75 0.75

Total 15 15 9 4.5 19.50

3rd Year even semester

Sl.



Credits Contact

Hrs/week Credits

Contact

Hrs/week Credits

1 EEE 3200 Electrical and Electronic

Circuit Simulation Lab 3 1.5 1.50

2 EEE 3203 Power Electronics 3 3 3.00

3 EEE 3204 Power Electronics Sessional 3/2 0.75 0.75

4 EEE 3205 Power Plant Engineering and

Economy 3 3 3.00

5 EEE 3209 Microprocessor, Interfacing

and System design 3 3 3.00

6 EEE 3210 Microprocessor, Interfacing

and System design Sessional 3 1.5 1.50

7 EEE 3211 Power System I 3 3 3.00

8 EEE 3212 Power System I Sessional 3 1.5 1.50

9 EEE 3217 Communication Engineering II 3 3 3.00

10 EEE 3218 Communication Engineering II

Sessional 3/2 0.75 0.75

Total 15 15 12 6.00 21.00

4th Year odd semester

Sl.

No

Course

No. Course Title


Credits Contact

Hrs/week Credits

Contact

Hrs/week Credits

1 EEE 4000 Project & Thesis 3 1.5 1.50

2 EEE 4100 Industrial Training* 1 1.00

3 EEE 4107 Digital Signal Processing 3 3 3.00

4 EEE 4108 Digital Signal Processing

Sessional 3/2 0.75 0.75

5 EEE 4117 Radio and TV Engineering 3 3 3.00

6 EEE 4118 Radio and TV Engineering

Sessional 3/2 0.75 0.75

7 IPE 4111 Project and Operations

Management 2 2 2.00

8 EEE **** Elective I 3 3 3.00

9 EEE **** Elective I Sessional 3/2 0.75 0.75

10 EEE **** Elective II 3 3 3.00

11 EEE **** Elective II Sessional 3/2 0.75 0.75

Total 14 14 9 5.5 19.50

9

*Industrial Training: Students will be attached with the industries/service agencies for two weeks after

completion of their third year odd semester or during any vacation in Third year even semester) to gain

practical knowledge.

4th Year even semester

Sl.

No

Course

No. Course Title


Credits Contact

Hrs/week Credits

Contact

Hrs/week Credits

1 EEE 4000 Project & Thesis 6 3 3.00

2 EEE 4200 Seminar 2 1 1.00

3 EEE 4209 Embedded System Design 3 3 3.00

4 EEE 4210 Embedded System design

Sessional 3/2 0.75 0.75

5 EEE 4217 Mobile Cellular

Communication 3 3 3.00

6 EEE **** Elective III 3 3 3.00

7 EEE **** Elective III Sessional 3/2 0.75 0.75

8 EEE **** Elective IV 3 3 3.00

9 EEE **** Elective V 3 3 3.00

Total 15 15 11 5.5 20.50

2. Elective Course divisions

Elective I Group Course No. Course Title Credit

Power

EEE 4141 Power System II 3.00

EEE 4142 Power System II Sessional 0.75

Electronics

EEE 4161 Digital Electronics II 3.00

EEE 4162 Digital Electronics II Sessional 0.75

EEE 4165 Processing & Fabrication Technology 3.00

EEE 4166 Processing & Fabrication Technology 0.75

Communication

EEE 4181 Microwave Engineering 3.00

EEE 4182 Microwave Engineering Sessional 0.75

Elective II Group Course No. Course Title Credit

Power EEE 4143 High Voltage Engineering 3.00

EEE 4144 High Voltage Engineering Sessional 0.75

Electronics EEE 4163 VLSI 3.00

EEE 4164 VLSI Sessional 0.75

Communication EEE 4183 Digital Communication 3.00

EEE 4184 Digital Communication Sessional 0.75

Elective III Group Course No. Course Title Credit

Power

EEE 4241 Power System Protection 3.00

EEE 4242 Power System Protection Sessional 0.75

Electronics

EEE 4261 Biomedical Engineering 3.00

EEE 4262 Biomedical Engineering Sessional 0.75

10

EEE 4267 Transducers and Instrumentation 3.00

EEE 4268 Transducers and Instrumentation Sessional

0.75

Communication

EEE 4281 Antennas and Propagation 3.00

EEE 4282 Antennas and Propagation Sessional 0.75

Elective IV Group Course No. Course Title Credit

Power EEE 4243 Power System Operation and Control 3.00

Electronics EEE 4263 Optoelectronics 3.00

Communication EEE 4283 Radar and Satellite Communication 3.00

Elective V Group Course No. Course Title Credit

Power EEE 4245/ EEE 4247

Electrical Machine III / Renewable Energy

3.00

Electronics EEE 4269 Photovoltaic System 3.00

Communication EEE 4285 Optical Fiber Communication 3.00

11

Details Syllabus

1. Core Courses offered by the Department of EEE

EEE 1101 Electrical Circuits I

Contact hours/week: 3 Credits: 3

Introduction of electrical power sources, ideal and practical sources, linear

circuit elements. DC analysis of series, parallel and series-parallel circuits.

Kirchhoff’s Voltage and current laws, voltage, current, power and energy.

Sinusoidal wave: Average and effective values, form factor, peak factor,

phase relation and phasors. Steady state AC analysis of series, parallel and

series parallel circuits, phase relation between voltage and current, concept

of impedance, power, power factor, phasor diagram. Network theorems:

Superposition theorem, Thevenin’s theorem, Norton’s theorem, maximum

power transfer theorem, substitution theorem and reciprocity theorem.

Frequency response of ac circuits, resonance phenomena.

Magnetic circuit and concepts: flux, fields, permeability reluctance, analysis

of series, parallel and series- parallel magnetic circuit.

EEE 1102 Electrical Circuits I Sessional

Contact hours/week : 3 Credits : 1.5

Sessional based on the theory of course EEE 1101

EEE 1201 Electrical Circuits II

Contact hours/week :3 Credits: 3

Polyphase system, balanced and unbalanced three phase circuit analysis.

Two-port network analysis. Coupled circuit. Introduction to filter.

EEE 1202 Electrical Circuits II Sessional

Contact hours/week :3/2 Credits: 0.75

Sessional based on the theory of course EEE 1201.

EEE 1203 Electronics I


Signals, their origin and processing in electronic system. Development of

electronic processing devices; Vacuum tubes and semiconductor devices; P-

N junction semiconductor diodes; Application of diode as rectifier, Zener

diode and its application.

12

BJT, FET, MOSFET : Characteristics, Biasing techniques, Stabilization

factors, Compensation. Equivalent circuits, single stage amplifiers at

midband frequencies. Power amplifiers. Heat sink.

EEE 1204 Electronics I Sessional

Contact hours/week: 3 Credits: 1.5


EEE 2100 Electrical Shop Practice

Contact hours/week: 3 Credits:1.5

Electrician’s tools, splices, soldering, code practices. Electrical and

electronic symbols, Safety rules, electricity rules and electricity codes.

Electrical wiring system design drawing and estimation for residential and

commercial house wiring and Industrial installation wiring. Use of meggers,

Insulation test, Grounding earth resistance measurement using earth

resistance tester. Battery charging.

EEE 2103 Electronics II

Contact hours/week: 3 Credits:3

BJT, FET, MOSFET multistage amplifier circuits. Frequency response of

single stage and multistage amplifiers. Introduction to CMOS and its

applications.

Introduction to operational amplifiers: Basic linear and non linear

applications. Frequency response, bandwidth and other practical limitation

of op-amps, compensation techniques. Feedback concept, Improvement of

amplifier characteristics by negative feedback. Classification, analysis of

feedback amplifier. Sinusoidal oscillators: Concept and its classification.

Active filters. Negative impedance converters.

EEE 2104 Electronics II Sessional



EEE 2203 Electronics III


Wave shaping: Linear and non-linear wave shaping, Clipping and Clamping

circuits, Non Linear function circuits. Negative resistance switching

circuits. Timing circuits; Bi-stable, mono-stable and Astable multivibrators,

Sweep and staircase generator, IC 555 and its application. Application of

op-amp in timing circuits, Comparators, Schimtt’s Trigger. Pulse generator,

VCO, PLL, Blocking oscillators.

13

EEE 2204 Electronics III Sessional


Sessional based on the theory of course of EEE 2203

EEE 2105 Electrical Machine I


Transformer: Ideal transformer- transformation ratio, no-load and load

vector diagrams; actual transformer- equivalent circuit, regulation, short

circuit and open circuit tests. Three phase transformer and its connections;

Vector group of three phase transformers; Phase conversion.

Three Phase Induction Motor: Rotating magnetic field, equivalent circuit,

vector diagram, torque-speed characteristics, effect of changing rotor

resistance and reactance on torque-speed curves, motor torque and

developed rotor power, no-load test, blocked rotor test, starting and braking

and speed control; Induction generator.

Single Phase Induction Motor: Theory of operation, equivalent circuit and

starting.

EEE 2106 Electrical Machine I Sessional



EEE 2205 Electrical Machine II


DC Generators: Types, no-load voltage characteristics, build up of a self

excited shunt generator, load-voltage characteristic, effect of speed on no-

load and load characteristics and voltage regulation, armature reaction.

DC Motor: Operating principle, counter emf, torque, speed, torque-speed

characteristics, starting, braking, and speed control.

Synchronous Generator: Windings, excitation systems, equivalent circuit,

vector diagrams at different loads, factors affecting voltage regulation,

synchronous impedance, synchronous impedance methods of predicting

voltage regulation and its limitations. Parallel operation: necessary

conditions, synchronizing, circulating current and vector diagram.

Synchronous Motor: Operation, loading effect, effect of changing

excitation, V-curves, and starting methods.

EEE 2206 Electrical Machine II Sessional



14

EEE 2211 Measurement & Instrumentation


Introduction : Methods of measurement. Statistical method applied to field

of measurement and error analysis and calibration.

Resistance, Inductance and Capacitance measurements: Different methods

of measuring high, medium and low resistances. Methods of measuring self

and mutual inductance and capacitance measurement. A.C. and DC bridge

methods, Measurement of insulation and earth resistances. Localization of

cable fault.

Magnetic measurement: Flux meter, Flux and Flux density measurement.

Determination of iron losses and their separation.

Measuring instruments : Classification of measuring instruments. Ammeter,

Voltmeter, wattmeter, AVO meter, Energy meter, Ampere-hour meter and

Maximum demand meter for measuring AC and DC quantities. Speed,

frequency and phase difference measurements. Illumination measurement.

Electronic measuring instruments: Digital instruments, VTVM, Q-meter

and CRO.

Instrumentation : Extension of instrument range. Use of C.T. and P.T and

calculation of their burden, Instrumentation of substation.

Measurement of non-electrical quantities: Transducer. Measurement of

temperature, pressure, displacement, velocity, acceleration. Strain gauge

and their applications.

EEE 2212 Measurement & Instrumentation Sessional



EEE 2213 Digital Electronics I


Analysis and Synthesis of Digital Logic Circuits: Number system, codes,

and conversion. Boolean algebra, De Morgan’s law, logic gates and truth

tables, combinational logic design, minimization techniques,

implementation of basic static logic gates in CMOS and BiCMOS.

Arithmetic and data handling logic circuits, decoders and encoders,

multiplexers and combinational circuit design.

Programmable Logic Devices: Logic arrays, Field Programmable Logic

Arrays and Programmable Read Only Memory.

Sequential Circuits: Different types of latches, flip-flops and their design

using ASM approach, timing analysis, timing analysis and power

optimization of sequential circuits. Modular sequential logic circuit design:

Shift registers, counters and their applications.

15

EEE 2214 Digital Electronics I Sessional

Contact hours/week: 3/2 Credits:0.75


EEE 3100 Electronic Shop Practice


Introduction to formal procedures of preventive maintenance. Circuit

tracing, trouble shooting, fault repairing, soldering and de-soldering of

electronic circuits. Design of PCB layout, etching.

Radio receivers: Principles of operations, circuit tracing, fault finding by

signal injection alignment. TV camera, B/W TV, color TV. CD and VCD

player.

EEE 3101 Signals and Linear Systems


Analogous system, Response to non-sinusoidal voltage, L-system.

Transform methods, Purpose and nature of transform, Fourier and Laplace

transforms. Impulse function. Convolution integral and their application to

network and system analysis. Filter equations, modern filters.

EEE 3105 Control Systems


Introductory Concepts: Open loop versus closed loop feedback system.

Input output relationship. Transfer function. DC machine dynamics,

performance criteria, sensitivity and accuracy. Analysis of control systems

time and frequency domain error constants.

Stability of control system : Routh-Hurwitz criterion, bode plot, polar plot.

Nyquist method. Root locus techniques. Frequency response analysis.

Nicholes chart, compensation. Introduction to non-linear control system.

State variable characterization of systems, transition matrix, canonical

forms. Controllability and observability.

EEE 3106 Control Systems Sessional

Contact hours/week: 3/2 Credits: 0.75


EEE 3107 Electromagnetic Fields & Waves


Electrostatics and Magnetostatics using vector methods. Fields in dielectrics

and conductors. Boundary conditions of Electric and Magnetic fields. Time

16

Varying Fields; Maxwell’s equation and poynting vector. Uniform plane

wave and its transmission and reflection. Skin effect and Surface resistance.

Wave guides. Introduction to radiation system.

EEE 3109 Computational Methods in Electrical Engineering


Computer algorithm Mathematical modeling of physical systems. Iterative

Techniques, Solution of simultaneous equations, Interpolation, Curve

fitting, Solution of Differential Equations. Numerical solution of

Integration. Application of the above techniques in Electrical & Electronic

Engineering through computer program.

EEE 3110 Computational Methods in Electrical Engineering

Sessional



EEE 3117 Communication Engineering I

Contact hours/week: 3 Credit : 3

Introduction: Principle, evolution, networks, exchange and international

regulatory bodies. Telephone apparatus: Microphone, speakers, ringer,

pulse tone dialing mechanism, side-tone mechanism, local and central

batteries and advanced features. Switching system: Introduction to analog

system, digital switching systems – space division switching, blocking

probability and multistage switching, time division switching and two

dimensional switching. Traffic analysis: Traffic characterization, grades of

service, network blocking probabilities, delay system and queuing. Modern

telephone services and network: Internet telephony, facsimile, integrated

services digital network, asynchronous transfer mode and intelligent

networks.

EEE 3118 Communication Engineering I Sessional



EEE 3200 Electrical & Electronic Circuit Simulation Sessional


Verification of theories and concepts learned in electrical and electronic

circuit theory courses using simulation software(s). Design of electrical (DC

and AC) and electronic circuits by simulation.

17

EEE 3203 Power Electronics


Power semiconductor switches and triggering devices: BJT, MOSFET,

SCR, IGBT, GTO, TRIAC, UJT and DIAC. Rectifiers: Uncontrolled and

controlled single phase and three phase. Regulated power supplies: Linear-

series and shunt, switching buck, buckboost, boost and cuk regulators. AC

voltage controllers, single and three phase. Choppers. DC motor control.

Single phase cycloconverter. Inverters: single phase and three phase current

and voltage source. AC motor control. Stepper motor control. Resonance

inverters. Pulse width modulation control of static converters.

EEE 3204 Power Electronics Sessional



EEE 3205 Power Plant Engineering and Economy


Introduction to thermal, hydro and nuclear power stations. Nuclear reactor,

reactor construction and control. Power reactors. Central station reactors.

Nuclear hazards.

Variable load problems, plotting and analysis of load curves, chronological

load curves and load duration curve. Energy load curve and its use. Load

factor, capacity factor, demand factor, utilization factor, diversity factor etc.

and there impact over the cost analysis of power generation and utilization.

Load forecasting, selection of units and plant location.

Load shearing: Base load and peak load plants. Use of chronological load

curves to distribute load among units.

Power plant Economics: Economic operation of power plants. Input output

curve, heat rate curve, incremental rate curve. Use of incremental rate curve

for optimum load scheduling. Transmission line loss, determination of loss

co-efficient. Economic conductor selection, Kelvin’s law. Graphical method

for location of distribution systems. Tariff and tariff design. Bus system.

Importance of power control. Current limiting reactors. Different types of

bus system layout. Forces on bus section in case of short circuit.

EEE 3209 Microprocessor, Interfacing and System design


Fundamental Concepts: Microprocessor: A programmable device;

microcomputer components and support ICs, building blocks of MPU based

systems, microprocessor buses, programming principles using MASM,

microprocessor instructions.

18

16-bit Architecture: Pin diagram and functions, memory organization, bus

activities, register layout, internal processing blocks.

Instruction Set: Classifications of instructions, addressing modes, address

computing chart.

I/O Controller Programming: Port definition and read/write instructions,

parallel I/O programming using 8255, serial I/O programming using 8251,

display programming using 8279 and LCD, keyboard programming using

8279 and discrete components, generation of timing functions using 8254

Timer/Counter.

Interrupt Structure: Interrupt terminologies, hardware and software

interrupt, multiple interrupt management, 8259 interrupt controller.

Data Conversion Algorithm: BCD2BIN conversion, BIN2BCD

conversion, binary multiplication, binary division.

System Design (8086 based digital weighing machine: DWM)

Topdown/Bottomup design concept, hardware block diagram, control

program flow chart, weight/rate acquisition and processing and display, cost

computation and processing and display.

Advanced Microprocessors and Microcontrollers: History of the

evolution of MPU/MCU, multitasking systems, PVAM operation of Intel

high performance architecture, overview of 80286 architecture, instruction

and programming; overview of 80386 architecture, instruction and

programming; CISC and RISC microcontrollers, instruction and

programming.

EEE 3210 Microprocessor, Interfacing and System design Sessional



EEE 3211 Power System I


Inductance and Capacitance of overhead power line. Line representation :

equivalent circuit of short, medium and long line. Network representation:

single line and reactance diagram of power system and per unit

representation. Load flow studies : Gauss – seidel and Newton-Raphson

method. Control of voltage, real power and reactive power. Reactive power

compensation. Fault analysis: Symmetrical fault calculation, symmetrical

components, sequence impedance and sequence networks, different

unsymmetrical fault calculation. Introduction to different kinds of relays

and circuit breakers. Typical layout of substation equipment.

19

EEE 3212 Power System I Sessional



EEE 3217 Communication Engineering II

Contact hours/week: 3 Credit : 3

Overview of communication system: Basic principles, fundamental

elements, system limitations, message source, bandwidth requirements,

transmission media types, bandwidth and transmission capacity. Noise:

Source, characteristics of various types of noise and signal to noise ratio.

Communication systems: Analog and digital. Continuous wave modulation:

Transmission types- base-band transmission, carrier transmission;

Amplitude and Angle Modulations & Demodulations, Sampling and Pulse

Modulations; line coding- formats and bandwidths. Binary Modulated

Bandpass Signaling: OOK, BPSK, DPSK, FSK, MSK bandwidth

requirements, detection and noise performance, Multilevel Modulated

Bandpass Signaling, Multiplexing: TDM- principle, receiver

synchronization, frame synchronization, TDM of multiple bit rate systems;

FDM- principle, de-multiplexing; wavelength-division multiplexing

multiple-access network- time-division multiple-access, frequency-division

multiple access, code-division multiple-access - spread spectrum

multiplexing, coding techniques and constraints of CDMA. Communication

system design: design parameters, channel selection criteria and

performance simulation.

EEE 3218 Communication Engineering II Sessional



EEE 4000 Project and Thesis

Contact hours/week: (3+6) Credits (1.5+3)

A project/thesis course will be assigned to the students in 4th year 1st

semester class and it will continue till 4th year 2nd semester. The objective is

to provide an opportunity to the students to develop initiative, creative

ability, confidence and engineering judgment. The results of the work

should be submitted in the form of a dissertation, which should include

appropriate drawings, charts, tables, references etc. A grade X shall be

awarded for this course in 4th year 1st semester. Final assessment on this

course will be done in 4th year 2nd semester.

EEE 4100 Industrial Training


20

Students will be attached with the industries/service agencies for two weeks

after completing their Third year first semester (before starting Third year

second semester/during any vacation in Third year second semester) to gain

practical knowledge. It is a 1-credit course and without completion of this

course the student will not fulfill the requirements of B. Sc. Engineering

Degree.

EEE 4107 Digital Signal Processing


Introduction to Digital Signal Processing (DSP): Discrete-time signals

and systems, analog to digital conversion, impulse response, finite impulse

response (FIR) and infinite impulse response (IIR) of discrete time systems,

difference equation, convolution, transient and steady state response.

Discrete Transformations: Discrete Fourier series, discrete-time Fourier

series, discrete Fourier transform (DFT) and properties, fast Fourier

transform (FFT), inverse fast Fourier transform, Z-transformation-

properties, transfer function, poles and zeroes and inverse Z-transform.

Correlation: Circular convolution, auto correlation and cross correlation.

Digital Filters: FIR filters- linear phase filters, specifications, design using

window, optimal and frequency sampling methods; IIR filters-

specifications, design using impulse variant, bi-linear z-transformation,

least square methods and finite precision effects.

EEE 4108 Digital Signal Processing Sessional



EEE 4117 Radio and TV Engineering


Introduction to radio communication, History, Frequency management.

Design of radio transmitter and receiver circuits using scattering-parameter

methods. Circuits include oscillators, radio frequency amplifiers and

matching networks, mixers and detectors. Design of amplitude, frequency,

and pulse-modulated communication systems, including modulators,

detectors, and the effects of noise.

Television: Introduction, principle of operation, transmitter and receiver,

Receiving and transmitting antenna. Camera tube, Picture tube, Electron

beam scanning, T-lines, balun, duplexer, Vestigial side-band filters.

Introduction to color TV, VCR, CCTV, CATV, MATV, TV Booster.

EEE 4118 Radio and TV Engineering Sessional



21

EEE 4200 Seminar


Students will work in groups or individually to prepare review articles on

the corresponding topic of their thesis/project and will present before

audience.

EEE 4209 Embedded System Design


Embedded Processing – Evolution, Issues and Challenges; System and

Processor Architecture: von Neumann, Harvard and their variants; Memory

Architecture and Devices; Input-Output Devices and Mechanisms;

Instruction Set and Addressing Modes; Interfacing of Memory and

Peripheral Devices – Functional and Timing Issues; Application Specific

Logic Design using Field Programmable Devices and ASICs; Analog to

Digital and Digital to Analog Converters; Bus I/O and Networking

Considerations; Bus and Wireless Protocols; Embedded Systems Software:

Constraints and Performance Targets; Real-time Operating Systems:

Introduction, Scheduling in Real-time Operating Systems; Memory and I/O

Management: Device Drivers; Embedded Software Development: Flow,

Environments and Tools, System Specification and Modelling,

Programming Paradigms, System Verification; Performance Analysis and

Optimisation: Speed, Power and Area Optimisation; Testing of Embedded

Systems System Design Examples using Microcontrollers, PLC, and FPGA.

EEE 4210 Embedded System Design Sessional



EEE 4217 Mobile Cellular Communication


Introduction: Concept, evolution and fundamentals, analog and digital

cellular systems.

Cellular Radio System: Frequency reuse, co-channel interference, cell

splitting and components

Mobile Radio Propagation: Propagation characteristics, models for radio

propagation, antenna at cell site and mobile antenna.

Frequency Management and Channel Assignment: Fundamentals,

spectrum utilization, fundamentals of channel assignment, traffic and

channel assignment.

Handoffs and Dropped Calls: Reasons and types, forced handoffs, mobile

assisted handoffs and dropped call rate.

22

Diversity Techniques: Concept of diversity branch and signal paths,

diversity types, Alamouti space-time block coding; carrier to noise and

carrier to interference ratio performance.

Digital Cellular Systems: Global system for mobile, OFDM. GSM,

AMPS, GPRS, EDGE, W-CDMA, generations of mobile communication,

Packet switching and data communication

2. Elective Courses offered by the Department of EEE 2.1 Power Group

EEE 4141 Power System II


Design and constructional features of overhead power transmission lines

and underground cables. DC and AC power distribution. Stability: Swing

equation, power angle equation, equal area criterion, multi-machine system,

step-by-step solution of swing equation, factors affecting transient stability.

Flexible AC transmission system. High voltage DC transmission system.

Power system harmonics.

EEE 4142 Power System II Sessional



EEE 4143 High Voltage Engineering


Ionization and decay process: Townsend’s first and second ionization

coefficient. Electric breakdown in gases. Townsend’s criterion for spark

breakdown. Sparking potential. Penning effect. Corona discharges, power

loss calculation. Breakdown of solid and liquid dielectrics.

Generation of high voltage: Alternating voltage, transformer cascade. Series

resonant circuit for high voltage ac testing. Test of dc and ac cable.

Transient Voltage: Impulse wave shape. Impulse voltage generator and its

mathematical analysis. Design consideration of impulse generators.

Triggering of impulse generators.

DC voltage doubler and cascade circuits. Electrostatic generator, voltage

stabilization. Measurement of high voltage. Electrostatic voltmeter, sphere

gap. Potential divider. High Voltage testing of power system equipment. Oil

testing. Design consideration of transmission line based on direct stroke.

High voltage transient in transmission line. High voltage lightning arrester.

Insulation co-ordination.

23

EEE 4144 High Voltage Engineering Sessional



EEE 4243 Power system Operation and Control


Principles of power system operation : SCADA, convention and

competitive environment. Unit commitment, static security analysis, state

estimation, optimal power flow, automatic generation control and dynamic

security analysis.

EEE 4241 Power system protection


Philosophy of switchgear and protection. Circuit breakers, principle of arc

extinction in DC and AC circuit breakers. Recovery voltage, rate of rise of

recovery voltage and other transient phenomena. Switching surges.

Disconnection of unloaded transformer and transmission line. Speed of

circuit breaker. Construction, operation, rating and testing of bulk oil and

minimum oil breaker, SF6 circuit breaker, ABCB, ACB, and VCB.

Selection of circuit breaker. Travelling wave in transmission line. Surge

absorber, lightning arrester, horn gap, its rating and testing.

Protective relaying: Relay voltage rating, high, medium and low. Basic

protective zone. Relaying Scheme.

Electromechanical Relays: Principal, general equation. overcurrent,

balanced current, overvoltage, distance, directional, positive sequence,

negative sequence and differential relays and their applications.

Static relays: Introduction to solid state device in the construction of static

relays. Different type of static relays.

Generator protection. Transformer protection, Bucholz’s relay. Protection

of bus bar, transmission line, feeder etc. Relay testing.

EEE 4242 Power system protection Sessional



EEE 4245 Electrical Machine III


Special Machines: Series universal motor, permanent magnet DC motor,

unipolars and bipolar brush less DC motors, stepper motor and control

circuits. Reluctance and hysteresis motors with drives circuits, switched

24

reluctance motor, electro static motor, repulsion motor, synchros and

control transformers. Permanent magnet synchronous motors.

Acyclic Machines: Generators, conduction pump and induction pump.

Magneto Hydrodynamic Generators: Fuel cells, thermoelectric

generators, flywheels, vector control, linear motors and traction.

EEE 4247 Renewable Energy


Importance of renewable energy, sources. Statistics regarding solar

radiation and wind speed. Insulation: geographical distribution, atmospheric

factors, measurements. Solar cell: principle of operation, spectral response,

factors affecting conversion efficiency, I-V characteristics, maximum power

output. PV modules and arrays: stationary and tracking. PV systems: stand

alone, battery storage, inverter interfaces with grid. Wind turbine

generators: types, operational characteristics, cut-in and cut-out speed,

control, grid interfacings, AC-DC-AC link. Wind and Tidal energy

conversion.

2.2 Electronics Group

EEE 4161 Digital Electronics II


TTL: TTL NAND gate operation, current-sourcing and current-sinking

action, totem pole output circuit, TTL NOR gate, standard TTL

characteristics, supply voltage and temperature range, voltage levels, power

dissipation, propagation delay, fan out, introduction to improved TTL

series, TTL loading and fan out, other TTL characteristics, connecting TTL

outputs together, open collector output, Tri-state, TTL driving CMOS,

problem with TTL.

ECL: Basic ECL circuit, CL OR/NOR gate, ECL characteristics, fan out,

speed of operation.

CMOS Logic Families: Introduction to the working principle of

enhancement type NMOS, PMOS and depletion MOS. Comparison of

NMOS and PMOS with respect to speed. Design of NOMS inverter with

resistive load, with NMOS enhancement load and with NMOS depletion

load. Egde time and speed calculation for NMOS inverter with depletion

load. CMOS inverter: Circuit diagram, operation, transfer characteristic and

noise margin. Design of basic CMOS gates (NAND gate and NOR gate)

with specified parameters (rise time and fall time). Circuit implementation

from logic equations. NMOS pass transistors and CMPS pass gate.

Implementation of multiplexer by NMOS and CMOS pass gate. Buffer

circuit. CMOS gates driving TTL gates and comparison of CMOS logics

with TTL logics. Design of basic logic gates using CMOS and BiCMOS.

Interfacing Data Converters: Digital to Analog Converters (D/A):

25

The binary weighted resistor D/A converter. The R/2R ladder D/A

converter. The inverted ladder D/A converter. Specification for D/A

converters (resolution, linearity, settling time and accuracy).

Analog to Digital Converters (A/D): Flash converters, Successive

approximation converter and Dual slope converter. A/D converter

specifications (analog input voltage, input impedance, accuracy, conversion

time etc.). A comparison of converter types. Sample and hold circuit (S/H),

interconnecting the S/H circuit and the A/D converter.

EEE 4162 Digital Electronics II Sessional



EEE 4263 Optoelectronics


Light : Nature of light, Polarization, superposition, interference, diffraction,

sources, blackbody radiation.

Modulation of light : Elliptical polarization, Birefringence, quarter wave

plate, optical activity, electro-optic effect, Kerr modulators, scanning and

switching, magneto –optic devices, acousto-optic effect, nonlinear optics.

Display devices: Luminescence, photoluminescence, cathodoluminescent,

LED materials, LED construction, response time, plasma displays, LCD,

numerical display.

Lasers : Emission and absorbs ion, Einstein relation, optical feedback, laser

losses, line shape function, modes, classes of laser, laser applications,

distance measurements, holography.

Photo detectors : Thermal detectors, photon devices, vacuum photodiodes,

Noise, Image intensifier, junction detectors, detector arrays.

Optical communication system: Fiber optic communication, integrated

optics.

Noncommunication applications: Optical fiber sensors, Light guiding fiber.

EEE 4163 VLSI


Introduction to Microelectronics and MOS Technology, Basic Electrical

Properties and Circuit Design Processes of MOS and Bi CMOS Circuits,

Inverter Circuits, Sub-System Design Processes and Layout, Scaling of

MOS Circuits: Scaling Models and Scaling Factors, Limitation of Scaling.

Computational Elements: Design of an ALU Sub-System, Adder,

Multipliers, Memory Registers, Dynamic & Static Flip-Flops, Bus

Arbitration and Aspects of System Timing. CMOS Fabrication, Practical

Aspects of Design Tools and Test-Ability CMOS Design, Behavioral

26

Description, Structural Description, Physical Description and Design

Verification. Introduction to Ga-As Technology: Ultra-Fast Circuits and

Systems.

VHDL background and basic concepts, structural specifications of hardware

design organization and parameterisation.

EEE 4164 VLSI Sessional



EEE 4165 Processing and Fabrication Technology


Monolithic Fabrication Processes and Structures: Substrate materials:

Crystal growth and wafer preparation. Basic MOS process, Basic Bipolar

process, Photolithographic process, pattern generation, pattern transfer,

mask alignment, soft and hard baking, Photomask fabrication. Thermal

oxidation, oxide quality, oxide thickness characterization.

Cleaning: Surface cleaning, organic cleaning and RCA cleaning.

Diffusion: Mathematical model, constant source diffusion, limited source

diffusion, two-step diffusion, sheet resistance.Diffusion systems: Boron,

Phosphorous, Ion implementation.

Etching: Wet chemical etching, silicon and GaAs etching, anisotropic

etching, selective etching, dry physical etching, ion beam etching,

sputtering etching and reactive ion etching.

Film Deposition: Evaporation, sputtering, CVD, Epitaxy.

Isolation: p-n junction isolation, mesa isolation and oxide isolation, BJT

based microcircuits, p-channel and n-channel MOSFETs, complimentary

MOSFETs and silicon on insulator devices. Testing, bonding and

packaging.

Interconnection, contacts, packaging and testing.

EEE 4166 Processing and Fabrication Technology Sessional


Sessional: Sessional based on theory of course EEE 4165

27

EEE 4261 Biomedical Engineering


Medical terminology, cell physiology, membrane potential, action potential,

Rhythmic excitation of heart. Transducers used in medical diagnostics.

Biomedical Instrumentation: Normal Electrocardiograph, ECG simulator,

Watch filter, ECG amplifier, pulse beat monitor, pace maker, galvanic skin

resistance detector, respiratory and suction apparatus. Electronic

stethoscope. Electronic clinical thermometer, blood flow and pressure

monitoring recorders, metabolic rate measurement.

Special topics: Bio-telemetry, application of ultrasonic and laser in biology

and medicine. Clinical X- ray equipment. Fluoroscopy. Infrared heating.

EEE 4262 Biomedical Engineering Sessional



EEE 4267 Transducers and Instrumentation


Introduction : Functional elements of Instrumentation system, classification,

standards and calibration of different instruments, use of personal computer

in instrumentation.

Static performance of Instruments : Errors and uncertainties, propagation of

uncertainties, Accuracy, Precision, Resulation, Linearity etc., Impedance

loading and matching, selection of instruments.

Transducer elements : Analog and digital transducer, Active and passive

transducer. Construction, operating principle and characteristics of

Resistive, Inductive and capacitive transducer, Strain Gauge, Light

dependent transducer, LVDT, Piezoelectric, Hall effect transducer,

Thermistor, Thermocouple, RTD, Proximity transducer.

Data Acquisition and display : Amplifiers, Compensators, Filters, A-D and D-

A converter, Data transmission elements, Display and recording elements.

Motion measurement : Relative and absolute motion, Linear and rotational

motion measurement.

Force measurement : Pneumatic and elastic force, measurement of time

varying force.

Pressure measurement : High, moderate and low (Vacuum) pressure

measurement.

Torque and power measurement : transmission dynamometers, non-contact

dynamometers.

28

Temperature measurement : Measurement of ambient temperature,

temperature monitoring and control, measurement of high temperature, use

of RTD, Pyrometers.

Flow measurement : Linear resistance element flow meter, Ultrasonic flow

meter, electromagnetic flow meter. Hot wire anemometer, Laser Doppler

anemometer.

Acoustic measurement : Sound pressure and power level, Loudness, sound

level meter. Microphones, Piezoelectric crystal type microphone,

Electrodynamics type microphone, Carbon microphone.

Computer aided instrumentation : Example of a few open loop and closed

loop control system using different transducers and personal computer.

EEE 4268 Transducers and Instrumentation Sessional


Sessional: Sessional based on theory of course EEE 4267

EEE 4269 Photovoltaic System


Introduction to Photovoltaic Systems; Solar Radiation; the PN-junction and

Solar cell physics; function and performance of the components in the PV-

system; batteries, power point tracker, DC-AC inverter, charge regulator;

system design of stand-alone and grid connected systems; building

integration of PV-systems.

Fundamentals of photo-electrochemistry, Fundamentals and applications in

electron-transfer reactions, Experimental techniques in photo-

electrochemistry.

Cells, Modules, and Arrays, Batteries, Charge Controllers, Inverters,

System Sizing, Mechanical Integration, Electrical Integration, Design the

domestic solar cell, Net metering of PV systems; Commissioning,

Maintenance, and Troubleshooting;

Si-based Solar cells, extremely thin absorber (ETA) cells, Organic donor-

acceptor heterojunction solar cells, Dye-sensitized mesoscopic solar cells,

semiconductor/ liquid junction solar cells, Photo-electrochemical storage

cells.

2.3 Communication Group

EEE 4181 Microwave Engineering


UHF Transmission Lines: Voltage and current in ideal transmission lines,

reflection, transmission, standing wave, impedance transformation, smith

29

chart, impedance matching and lossy transmission lines. Microwave

Components: Cavities, Slow wave structures, Waveguide Tees, Directional

Couplers, Circulators and Isolators, S-parameter. Microwave tubes:

Klystron amplifier, multicavity klystron amplifier, Reflex Klystron

oscillator, magnetron, TWT amplifier, BWO. Semiconductor microwave

devices: Tunnel diodes, Gunn-Effect diodes, IMPATT diodes. Microwave

measurements.

EEE 4182 Microwave Engineering Sessional



EEE 4183 Digital Communication


Introduction : Communication channels, mathematical model and

characteristics. Probability and stochastic process. Source coding:

Mathematical models of information, entropy, Huffman code and linear

predictive coding. Digital transmission system: Base band digital

transmission, inter-symbol interference, bandwidth, power efficiency,

modulation and coding trade-off. Receiver for AWGN channels:

Correlation demodulator and maximum likehood receiver. Channel capacity

and coding: Channel models and capacities and random selection of codes.

Block codes and conventional codes: Linear block codes, convolution codes

and coded modulation. Spread spectrum signals and system.

EEE 4184 Digital Communication Sessional



EEE 4281 Antennas and Propagation

Contact hours/week: 3 Credits : 3

Fundamental of Antennas: Vector Potential Functions, Electric and

Magnetic Fields for Electric and Magnetic Current Sources, Solution of

Vector Potential Wave Equation.

Antenna Arrays: Two-Element Array, N-element Linear Arrays: Broad-

side, End-fire, Phased, Binomial, Dolph- Tchebyschef and Super-directive

Arrays, Determination of Array Factor and Patterns, Planar and Circular

Arrays.

Travelling-Wave and Broad-band Antennas: Long wire, V, Rhombic

and Helical Antennas, Yagi, Uda array, Frequency Independent and Log-

periodic Antennas.

30

Aperture, Reflector and Lens Antennas: Huygens's Principle,

Rectangular and Circular Apertures, Microstrip Antennas.

Babinet's Principle, Sectoral, Pyramidal and Conical Horns, Parabolic and

Cassegrain Reflector Antennas, Lens Antennas.

Antenna Measurement: Antenna ranges, Radiation Pattern, Gain and

Directivity, Polarization.

Radio wave propagation: Ground wave propagation, Ionospheric

propagation, Propagation losses.

EEE 4282 Antennas and Propagation Sessional



EEE 4283 Radar and Satellite Communication


Radar: Introduction to Radar, Radar Equation CZ, Operating Principle of

Radar with Block Diagram, CW and FM Radar, Tracking Radar, Antennas

for Radar, Radar Receivers, Radar Transmitting System, Duplexer, Usable

Frequencies for Radar, Radar Applications.

Satellite Communication: Overview of Satellite System Engineering.

Spacecraft, Introduction, to Spacecraft Subsystem. (AOCS), Telemetry,

Tracking and command (TT&C). Spacecraft Antennas, Basic Antenna

Types and Relationships Spacecraft, Antennas in Practice, Frequency Reuse

Equipment Reliability and Space Qualification, Reliability redundancy.

Multiple Access. Earth station Technology : Earth Station Design, Earth

Station Design for Low System Noise Temperature, Large Earth Station

Antennas.

Satellite Television Broadcasting Networks, VSAT technology.

EEE 4285 Optical Fiber Communication


Introduction : Historical perspective, basic system, nature of light,

advantages and applications of fiber optic.

Optics review : Ray theory and applications, lenses, imaging, numerical

aperture, diffraction.

Light wave fundamentals : Electromagnetive waves, Dispersion,

polarization, resonant cavities, reflection at plane boundary, critical angle.

Integrated optic waveguides : Slab waveguide, Modes in symmetric and

asymmetric waveguide, coupling, Dispersion and distortion, Integrated

optic components.

31

Optic fiber waveguide : Step index fiber, graded index fiber, attenuation,

pulse distortion and information rate, construction of optic fiber, optic fiber

cables.

Light sources : LED, LD, distributed feedback LD, optical amplifiers, fiber

laser, vertical cavity surface emitting laser diode.

Light detectors : Photo detection, photo multiplier, semiconductor

photodiode, PIN photodiode, avalanche photodiode.

Couplers and connectors : Connector principle, end preparation, splices,

connectors, source coupling.

Network distribution and fiber components: Directional couplers, star

couplers, switches, isolator, wave-length division multiplexing, fiber bragg

grating.

Modulation: LED modulation, LD modulation, Analogue and digital

modulation, modulation formats, optic heterodyne receivers.

Noise and detection : Thermal shot and noise, SNR, error rates, receiver

circuit design.

System design: Analogue and digital system design, few real life problems

and examples.

3. Courses from other departments 3.1 Department of Computer Science and Engineering

CSE 1111 Computer Programming


Introduction to digital computers. Programming languages, algorithms and

flow charts. Structured programming using C: Variables and constants,

operators, expressions, control statements, functions, array, pointer,

structure union, user defined data types, input-output files.

Object oriented programming using C++: Introduction, classes and objects;

polymorphism; function and operator overloading; inheritance.

CSE 1112 Computer Programming Sessional Contact hours/week: 3 Credits: 1.5

Sessional based on the theory of course CSE 1111

3.2 Department of Mechanical Engineering

ME 1200 Engineering Drawing

Contact hour/week: 3 Credit : 1.5

Introduction. Orthographic projections. Pictorial views. Drawing standards

and practices. Interpenetrating of surfaces. Development of surfaces.

32

Machine drawings. Technical sketching. Introduction to computer-aided-

drawing.

ME 2101 Basic Mechanical Engineering


Study of fuels. Steam generation units with accessories and mountings.

Study of steam generation and steam turbines. Introduction to internal

combustion engines and their cycles. Study of SI and CI engines and gas

turbines with their accessories.

Refrigeration and air conditioning with their application. Refrigeration

equipment: compressors, condensers and evaporators.

Type of fluid machinery. Study of impulse and reaction turbine. Pelton

wheel and Kalpan turbine. Study of centrifugal and axial flow machines.

Pumps, fans, blowers and compressors. Study of reciprocation pumps.

ME 2102 Basic Mechanical Engineering Sessional


Sessional based on the theory of course ME 2101.

3.3 Department of Mathematics

Math 1101 Engg. Mathematics I


Differential Calculus: Review of differentiation of various types of

functions. Rolle’s theorem, Mean value theorem. Taylor’s and Maclaurin’s

theorems in finite and infinite forms. Divergency and Convergency of

series. Partial differentiation, Euler’s theorem. Tangent, normal and

curvature. Determination of maximum and minimum values of functions

and their application.

Integral Calculus: Review of indefinite and definite integration of various

types of functions. Use of definite integration in summing series. Walli’s

formulae. Improper integrals. Beta function and Gamma functions. Area

under a plane curve and area of a region enclosed by two curves in cartesian

and polar coordinates. Volume and surface areas of solids of revolution.

Co-ordinate Geometry: Co-ordinate geometry of three dimension- System of

co-ordinates, transformation of co-ordinates, distance between two points,

section formula, projection, direction cosines, equations of planes and lines.

Math 1201 Engg. Mathematics II


33

Ordinary differential equations: Degree and order of ODE, Formation of

differential equations, Solution of first order Differential equations by various

methods, Solution of first order but higher degree ODE, Solution of general

linear equations of second and higher order with constant coefficients, Solution

of homogeneous linear equations and its applications, Solutions of Differential

equations of higher order when dependent and independent variable are absent,

Solution of differential equation by the method based on factorization of

operators.

Partial differential equations: Lagrange’s method of solving PDE of order

one, Integral surfaces passing through a given curve, Non linear PDE of order

one (Complete, Particular, Singular and general integrals) ; Standard forms

f(p,q)=0, z=px+qy+f(p,q), f(p,q,z) = 0, f1 (x,p)= f2(y,q), Charpit’s method,

Second order PDE; Its nomenclature and classifications to canonical (Standard)

parabolic, elliptic, hyperbolic, Solution by separations of variables, Linear PDE

with constants coefficients.

Series solution: Solution of differential equations in series by the method of

Frobenius, Bessel’s functions, Legendre’s Polynomials and their properties.

Math 2101 Engg. Mathematics III


Matrix: Definition of matrix, Different types of matrix, Algebra of matrix,

Adjoin and inverse of a matrix, Elementary transformations of matrix, Matrix

polynomials, Calay-Hamilton theory with uses of rank and nullity, Normal and

canonical forms, Solution of linear equations, Eigenvalues and eigenvectors.

Vector Analysis: Review of vector algebra: Addition and subtraction of

vectors, Scalar and vector product of two vectors and their geometrical

interpretation, Triple products and multiple products, Linear dependents and

independents of vectors. Vector Calculus: Differentiation and Integration of

Vectors together with elementary applications, Definition of line, Surface

and volume Integrals, Gradient, Divergence and curl of point functions,

various formulae, Gauss’s theorem, Stoke’s theorem, Green’s theorem.

Fourier Analysis: Real and complex form of Fourier series, Finite

transform, Fourier Integral, Fourier transforms and their uses in solving

boundary value problems of wave equations.

Laplce Transforms: Definition Laplace transforms of some elementary

functions, Sufficient conditions for existence of Laplace Transforms,

Inverse Laplace Transforms, Laplace Transforms of derivatives. The unit

step function, Periodic function, Some special theorems on Laplace

Transforms, Partial fractions, Solutions of differential equations by Laplace

Transforms, Evaluation of improper integrals.

Math 2201 Engg. Mathematics IV


34

Complex variable: Complex number system, General functions of a

complex variable, Limits and continuity of a function of complex variable

and related theorems; Complex differentiation and the Cauchy-Riemann

equations, Mapping by elementary functions, Line Integral of a complex

function, Cauchy's Integral theorem, Cauchy's Integral formula, Liouville's

theorem, Taylor's theorem and Laurent's theorem. Singular points, Residue,

Cauchy's Residue theorem. Evaluation of residues, Contour integration,

Conformal mapping.

Statistical Analysis: Frequency distribution; Mean, Median, Mode and

other measures of central tendency; Standard deviation and other measures

of dispersion; Moments skewness and kurtosis; Elementary probability

theory and discontinuous probability distributions (Binomial, Poisson and

negative binomial); Characteristics of distributions; Elementary sampling

theory; Estimation; Hypothesis testing and regression analysis.

3.4 Department of Physics

Phy 1111 Physics


Atomic Structure: Thompsons, Rutherford and Bhor's atomic model.

Atomic arrangement in solid. Different types of bonds in solid-metallic,

Vander Walls and ionic bond.

Electronic structure of materials: Free electron theory, Metallic conduction.

Energy bands, Brillouin zones, Temperature dependence of metallic

conductivity. Semiconductors: Band theory, intrinsic and extrinsic

semiconductors, Fermi levels, mobility and electrical conductivity, carrier

diffusion and life time. Magnetic materials: Properties, Dia-, Para- and

Ferro-magnetism. Hysteressis loop, B-H curve, Energy losses in magnetic

materials and their measurements. Soft and hard magnetic materials,

ferrities.

Thermal electricity: thermocouple, Seebeck effect, Peltier and Thompson

effect, Thermo-emf.

Photoelectricity: Laws of photoemission and Einstein's equation.

Photoelectric cell and its use.

Sound: Simple harmonic motion, wave equation, Principle of superposition.

Beats, Dispersion, Phase and group velocities, Doppler's effect, Free and

force vibrations.

Physical Optics: Theories of light; Hyugen's principle and construction.

Interference of light: Young's double slit experiment, Fresnel bi-prism,

Newton's ring, interferometers. Diffraction of light: Fresnel and Fraunhoffer

diffraction, diffraction by single and double slit diffraction gratings.

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Polarization, production and analysis of polarized light, optical activity,

optics of crystals.

Phy 1112 Physics Sessional


Sessional based on the theory of course Phy 1111.

3.5 Department of Chemistry

Chem 1211 Chemistry

Contact hours/week : 3 Credits: 3

Different types of chemical bonds and their properties. Modern concepts of

acids and bases. Problems involving acid base titration. Properties and uses

of noble gases. Electrochemistry, Mechanism of electrolytic conduction,

Transport number, Kohl-Rausch’s law. Ionization of water and concept of

pH. Different types of cells, Cell emf. Single electrode potentials, their

determination and application. Secondary Cells or Accumulators, lead

accumulator and alkaline accumulator. Different types of solutions. Factors

influencing the solubility of a substance, solution of gas in liguids.

Colligative properties of dilute solution. Le-chatelier’s theorem and some of

its important industrial applications. Thermochemistry, chemical kinetics.

Chem 1212 Chemistry Sessional

Contact hours/week : 3/2 Credits: 0.75

Laboratory experiments based on theory of course Chem 1211

3.6 Department of Humanities

Hum 1111 Technical English


Grammar: Grammatical principles, modals, phrases & idioms, prefixes &

suffixes, sentence structures,wh& yes/no questions, conditional sentences.

Vocabulary: Technical & scientific vocabulary, defining terms.

Spoken English: Introduction to phonetic symbols, dialogue, responding to

particular situations, extempore speech.

Reading: Comprehension of technical & non-technical materials-

skimming, scanning, inferring & responding to context.

Technical Writing: Paragraph & composition writing on scientific & other

themes, report writing, research paper writing, library references.

Professional communication: Business letter, job application, memos,

quotations, tender notice.

36

Hum 1112 Technical English Sessional

Contact hours/week : 3/2 Credits:0.75

Developing Reading Skill: Strategies of reading-skimming, scanning,

predicting, inferencing; Analyzing and interpreting variety of texts;

Practicing comprehension from literary and nonliterary texts.

Developing Writing Skill: Sentences, sentence variety, generating

sentences; Clarity and correctness of sentences, linking sentences to form

paragraphs, writing paragraphs, essays, reports, formal and informal letters.

Developing Listening Skill and Note Taking: Listening to recorded texts

and class lectures and learning to take useful notes based on listening.

Developing Speaking Skill: Oral skills including communicative

expressions for personal identification, life at home, giving advice and

opinion, instruction and directions, requests, complains, apologies,

describing people and places, narrating events.

Hum 1211 Financial Account & Economic Analysis


Accountancy: Basic accounting principles, Transaction, Journal, Ledger and Accounts.

Cash book, Bank Reconciliation statement. Preparation of Financial

Statement. Cost Accounts and its objects. Cost classification. Elements of

costs, preparation of cost sheet. Overhead allocation. Use of Relevant costs

in Decision-Making, Standard costing. Material cost variance. Break even

analysis.

Economics: Definition of Economics. Economics and Engineering.

Micro-Economics: The theory of demand and supply and their elasticity.

Price determination. Nature of an economic theory, applicability of

economic theories to the problems of developing countries. Indifference

curve technique. Marginal analysis. Production, production function, types

of productivity. Rational region of production of an engineering firm.

Concepts of market and market structure. Cost analysis and cost function.

Small scale production and large scale production. Optimization. Theory of

distribution.

Macro-Economics: Savings, investment, employment, National income

analysis. Inflation. Monetary policy, fiscal policy and trade policy with

reference to Bangladesh. Economics of development and planning.

IPE 2111 Legal Issues and Management for Engineers


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Business and industrial law: Law of contract, elements of valid contract.

Consideration, Parties competent to contact. Sale of goods, hire and

purchase. Negotiable instrument.

Industrial law in Bangladesh: various ordinance payments of wages,

legislation relating employment in industries, factories, shops and

agriculture, trade union act.

Human resources management in business: Human factors and

motivation, leadership, group decision making and communication, job

gradation, process of performance appraisal and reward systems, managing

information for decision and management information systems.

Marketing management: Understanding marketing management,

developing marketing strategies, conducting marketing research, analyzing

consumer and business market, identifying market segments and targets,

dealing with competition.

Safety: Evolution of modern safety concepts, industrial hazard, safety and

risk management, productivity, worker health and safety, proactive

management techniques for safety management, safety standards and

regulations for engineering works, fire safety, hazardous materials.

IPE 4111 Project and Operations Management


Project identification and selection, planning, appraisal, project

implementation, project organization, budgeting, scheduling using bar

diagram, CPM, PERT, resource allocation, information system and project

control, project termination, matrix organization, project manager, contract

negotiation and conflict resolution, evaluation of an investment project,

project failure and risk control.

Production systems, product/service life cycle, forecasting models, bill of

materials, material and inventory management: Inventory models, ABC

analysis, coding and standardization. Aggregate planning, MPS, MRP,

capacity planning, operating scheduling, facility location algorithm, facility

layout techniques, work study.

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Syllabus for Undergraduate Program

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